Data repository for the practical activities
At the link below you have access to the main data repository containing lesson materials, documentation and data for practical hands-on
https://cloud.planmap.eu/index.php/s/pegWL8ZQf7bgyJe
Mappy tutorial
At this link you will find slideshows on how to install and use Mappy plugin for QGIS
S1 – Moon and Mars data extraction and introduction to QGIS
Overview of planetary data repositories and QGIS basic training. Tutorial on Mappy plugin for user-friendly geological mapping
S2 – Moon data interpretation
Photo-geological data interpretation of a crater on the Moon
S3 – Mercury data interpretation
Photo-geological data interpretation of a crater on Mercury
S4 – Mars data interpretation
Photo-geological data interpretation of a Martian crater affected by later sedimentary processes
S5 – Age determination through crater counts on lunar geological maps
Measurements of crater size-frequency distributions via their distrubutions and age determinations
S6 – Generation of spectral indexes
Inside the “Software” folder you will find the Winter software package to be used in the activity (see the instruction in the tutorial):
The tutorial is available here
S7 – Integration of spectral indexes information into Mercury geological maps
Using spectral information to improve geological maps
S8 – Extraction of geological features and creation of 3D surfaces
Collecting structural data on a digital outcrop model in Gale crater & subsurface Martian polar caps exploration
S9 – Virtual reality practical experience
The use of VR for virtual practical experience
S4 – GMAP VA services and PLANMAP heritage
S5 – Age determination through crater counts on Lunar geological maps (1st part)
S5 – Age determination through crater counts on Lunar geological maps (2nd part)
S6 – Generation of spectral indexes
S7 – Integration of spectral indexes information into Mercury geological maps (1st part)
S7 – Integration of spectral indexes information into Mercury geological maps (2nd part)
S3 – Mercury data Interpretation
L2 – Principles of remote sensing
Closure of the Winter School and Thanks
L5 – Morphology and geological Mapping of the Moon
S1 – Introduction to Qgis and Geospatial FOSS
L4 – Terms, standards, reccomendations and exemplary projects for planetary (geologic) mapping
S2 – Moon data Interpretation – part 2
L7 – Mars Geology Overview
L13 – Introduction to the Virtual Reality environments for planetary applications and training
S2 – Exemplary Hands on Moon Mapping
S4 – Exemplary Hands on Mars Mapping (part B)
S4 – Exemplary Hands on Mars Mapping (part A)
S2 – Moon data Interpretation – part 1
L1 – Introduction to the Geological Mapping course
S1 – Moon and Mars data extraction
L8 – Geological Mapping on Martian sedimentary environments
L14 – Use of VR in the ESA-PANGAEA astronaut training and future applications
S4 – Exemplary Hands on Mars Mapping (perspective view)
S3 – Exemplary Hands on Mercury Mapping (part A)
S3 – Exemplary Hands on Mercury Mapping (part B)
S7 – Exemplary Hands on Mercury Mapping
S3 – Mercury mapping (practical activity wrup-up)
